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Literature DB >> 6370944

Ruminant heat stress: effect on production and means of alleviation.

Abstract

A review of the literature indicates heat stress generally causes lower milk production, decreased growth rate for cattle and lambs, but little effect on wool production. Breed and diet affects the degree of adverse response. Heat stress is caused primarily by high air temperature, but can be intensified by high humidity, thermal radiation and low air movement. Improving performance of animals under warm conditions involves breeding and management and modifying the environment. The former includes selection for heat tolerance, use of crossbred animals, diets with low heat increment in relation to energy for production and control of diseases and parasites. Environmental modifications may include provision of shades, use of water for evaporative cooling and increased air movement.

Entities: Chemical Species

Mesh：

Year: 1983 PMID： 6370944 DOI： 10.2527/jas1983.5761594x

Source DB: PubMed Journal: J Anim Sci ISSN： 0021-8812 Impact factor: 3.159

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Cited

11 in total

1. The effect of body weight on some welfare indicators in feedlot cattle in a hot environment.

Authors: Serdal Dikmen; Hakan Ustuner; Abdulkadir Orman
Journal: Int J Biometeorol Date: 2011-05-01 Impact factor: 3.787

2. Acetyl salicylic acid protected against heat stress damage in chicken myocardial cells and may associate with induced Hsp27 expression.

Authors: Di Wu; Jiao Xu; Erbao Song; Shu Tang; Xiaohui Zhang; N Kemper; J Hartung; Endong Bao
Journal: Cell Stress Chaperones Date: 2015-05-09 Impact factor: 3.667

3. Carcass traits and meat quality of lambs slaughtered during different seasonal conditions.

Authors: Volmir Antônio Polli; Amoracyr José Costa Nuñez; Renius Oliveira Mello; Sérgio Carvalho; João Restle; Pablo Tavares Costa; Juliano Smanioto Barin; André Fogaça Nigeliskii; Dejanir Pissinin; Ricardo Zambarda Vaz
Journal: Trop Anim Health Prod Date: 2022-10-20 Impact factor: 1.893

4. Effects of different protein levels on growth performance and stress parameters in beef calves under heat stress.

Authors: Won Seob Kim; Jalil Ghassemi Nejad; Dong Qiao Peng; Yong Ho Jo; Jongkyoo Kim; Hong Gu Lee
Journal: Sci Rep Date: 2022-05-17 Impact factor: 4.996

5. Productivity of Thai Brahman and Simmental-Brahman crossbred (Kabinburi) cattle in central Thailand.

Authors: S Boonprong; A Choothesa; C Sribhen; N Parvizi; C Vajrabukka
Journal: Int J Biometeorol Date: 2007-12-20 Impact factor: 3.787

6. Environmental effects on water intake and water intake prediction in growing beef cattle.

Authors: Cashley M Ahlberg; Kristi Allwardt; Ashley Broocks; Kelsey Bruno; Levi McPhillips; Alexandra Taylor; Clint R Krehbiel; Michelle S Calvo-Lorenzo; Chris J Richards; Sara E Place; Udaya DeSilva; Deborah L VanOverbeke; Raluca G Mateescu; Larry A Kuehn; Robert L Weaber; Jennifer M Bormann; Megan M Rolf
Journal: J Anim Sci Date: 2018-09-29 Impact factor: 3.159

10. Body composition estimated by bioelectrical impedance analyses is diminished by prenatal stress in neonatal lambs and by heat stress in feedlot wethers.

Authors: Rachel L Gibbs; Caitlin N Cadaret; Rebecca M Swanson; Kristin A Beede; Robert J Posont; Ty B Schmidt; Jessica L Petersen; Dustin T Yates
Journal: Transl Anim Sci Date: 2019-12-16